Publication | Num. Conditions |
Brief Description | PubMed ID |
Perez-Valle J et al., 2010 | 12 | Hal4 and Hal5 protein kinases are required for general control of carbon and nitrogen uptake and metabolism. (details) | 20952580 |
Causton HC et al., 2001 | 7 | Heat response (details) | 11179418 |
Gasch AP et al., 2000 | 8 | Heat shock 25C to 37C, 20 min; 80 min time course (details) | 11102521 |
Gasch AP et al., 2000 | 5 | Heat shock 29C to 33C, 20 min; 60 min time course (details) | 11102521 |
Gasch AP et al., 2000 | 4 | Heat shock 29C to 33C, 20 min; 90 min time course (details) | 11102521 |
Gasch AP et al., 2000 | 5 | Heat shock 37C to 25C, 20 min; 90 min time course (details) | 11102521 |
Gasch AP et al., 2000 | 6 | Heat shock from various temperatures to 37C (details) | 11102521 |
Yamamoto A et al., 2005 | 4 | Heat shock transcription factor 1 mutant response to heat stress (details) | 15647283 |
Segal E et al., 2003 | 10 | Heat Shock, kin82 mutant (details) | 12740579 |
Hickman MJ et al., 2007 | 6 | Heme levels switch the function of Hap1 of Saccharomyces cerevisiae between transcriptional activator and transcriptional repressor. (details) | 17785431 |
Simola DF et al., 2010 | 173 | Heterochronic evolution reveals modular timing changes in budding yeast transcriptomes. (details) | 20969771 |
Simola DF et al., 2010 | 23 | Heterochronic evolution reveals modular timing changes in budding yeast transcriptomes. (details) | 20969771 |
Verwaal R et al., 2010 | 14 | Heterologous carotenoid production in Saccharomyces cerevisiae induces the pleiotropic drug resistance stress response. (details) | 20632327 |
Ochi K et al., 2012 | 2 | Heterologous expression of a plant RelA-SpoT homologue results in increased stress tolerance in Saccharomyces cerevisiae by accumulation of the bacterial alarmone ppGpp. (details) | 22679107 |
Ruenwai R et al., 2011 | 9 | Heterologous production of polyunsaturated fatty acids in Saccharomyces cerevisiae causes a global transcriptional response resulting in reduced proteasomal activity and increased oxidative stress. (details) | 21184438 |
Zhu C et al., 2009 | 24 | High-resolution DNA-binding specificity analysis of yeast transcription factors. (details) | 19158363 |
Aristizabal MJ et al., 2013 | 24 | High-throughput genetic and gene expression analysis of the RNAPII-CTD reveals unexpected connections to SRB10/CDK8. (details) | 24009531 |
Bernstein BE et al., 2000 | 6 | Histone deacetylase (rpd3/ sin3/ hda1 deletions) (details) | 11095743 |
Bernstein BE et al., 2000 | 7 | Histone deacetylase (sin3/ sap30/ ume6/ hda1/ hos2/ hos3 deletions) (details) | 11095743 |
Sabet N et al., 2004 | 18 | Histone deacetylase RPD3 deletion and histone mutations (details) | 15456858 |
Tompa R et al., 2007 | 8 | Histone H3 lysine 36 methylation antagonizes silencing in Saccharomyces cerevisiae independently of the Rpd3S histone deacetylase complex. (details) | 17179083 |
Ye J et al., 2005 | 6 | Histone H4 lysine 91 acetylation a core domain modification associated with chromatin assembly. (details) | 15808514 |
Hodges AJ et al., 2015 | 6 | Histone Sprocket Arginine Residues Are Important for Gene Expression, DNA Repair, and Cell Viability in Saccharomyces cerevisiae. (details) | 25971662 |
O'Rourke SM et al., 2004 | 133 | HOG MAPK pathway (details) | 14595107 |
Nadal-Ribelles M et al., 2012 | 3 | Hog1 bypasses stress-mediated down-regulation of transcription by RNA polymerase II redistribution and chromatin remodeling. (details) | 23158682 |
de Jonge WJ et al., 2017 | 22 | HSF1-expression: Molecular mechanisms that distinguish TFIID housekeeping from regulatable SAGA promoters (details) | 27979920 |
Wenger JW et al., 2011 | 36 | Hunger artists: yeast adapted to carbon limitation show trade-offs under carbon sufficiency. (details) | 21829391 |
Ahmed K et al., 2019 | 8 | Hyperactive TORC1 sensitizes yeast cells to endoplasmic reticulum stress by compromising cell wall integrity. (details) | 31144305 |
Segal E et al., 2003 | 10 | Hypo-osmotic shock, ppt1 mutant (details) | 12740579 |
Voordeckers K et al., 2012 | 18 | Identification of a complex genetic network underlying Saccharomyces cerevisiae colony morphology. (details) | 22882838 |